Frangible closure coupling for liquid natural gas tank

The invention claimed is: 1. A fluid flow closure device for a liquid natural tank, comprising: a fluid conduit attachable to an outlet nozzle of a liquid natural gas tank, the fluid conduit having a breakable region that is inclined to break upon application of a predetermined amount of force to the fluid conduit; a valve assembly entirely inside the fluid conduit, the valve assembly configured to transition between an open state that permits fluid flow in a distal direction and a closed state that inhibits fluid flow in a distal direction through the fluid conduit, and wherein the valve assembly comprises: a valve retainer attached to the inside wall of the fluid conduit on a first side of the breakable region, the valve retainer having a support surface that extends from the first side of the breakable region to a second side of the breakable region; a flap positioned on a second and opposite side of the breakable region entirely inside the fluid conduit, wherein the flap rotates about an eccentric pivot point along the flap, wherein the support surface of the valve retainer supports the flap in a horizontal position when the valve retainer is in a first state, and wherein the valve retainer moves away from the flap to a second state where the valve retainer no longer supports the flap in the horizontal position such that the flap rotates to a non-horizontal position and occludes the fluid conduit when the valve retainer is in the second state; an actuator assembly that causes the valve retainer to transition from the first state to the second state, wherein the actuator assembly is a linear air actuator. 2. A device as in claim 1 , wherein the actuator assembly includes a spring that maintains the valve assembly in the open state until the actuator assembly is actuated. 3. A device as in claim 2 , wherein the spring is coupled to a piloted chamber. 4. A device as in claim 3 , wherein venting of the piloted chamber causes the actuation of the actuator assembly. 5. A device as in claim 1 , wherein the actuator assembly is remotely located relative to the valve assembly. 6. A device as in claim 1 , wherein the actuator assembly is locally located relative to the valve assembly. 7. A fluid flow closure device for a liquid natural tank, comprising: a fluid conduit attachable to an outlet nozzle of a liquid natural gas tank, the fluid conduit having a breakable region that is inclined to break upon application of a predetermined amount of force to the fluid conduit; a valve assembly entirely inside the fluid conduit, the valve assembly configured to transition between an open state that permits fluid flow in a distal direction and a closed state that inhibits fluid flow in a distal direction through the fluid conduit, and wherein the valve assembly comprises: a valve retainer attached to the inside wall of the fluid conduit on a first side of the breakable region, the valve retainer having a support surface that extends from the first side of the breakable region to a second side of the breakable region; a flap positioned on a second and opposite side of the breakable region entirely inside the fluid conduit, wherein the flap rotates about an eccentric pivot point along the flap, wherein the support surface of the valve retainer supports the flap in a horizontal position when the valve retainer is in a first state, and wherein the valve retainer moves away from the flap to a second state where the valve retainer no longer supports the flap in the horizontal position such that the flap rotates to a non-horizontal position and occludes the fluid conduit when the valve retainer is in the second state; an actuator assembly that causes the valve retainer to transition from the first state to the second state, wherein the actuator assembly includes a spring that maintains the valve assembly in the open state until the actuator assembly is actuated and wherein the spring is coupled to a piloted chamber. 8. A device as in claim 7 , wherein venting of the piloted chamber causes the actuation of the actuator assembly. 9. A device as in claim 7 , wherein the actuator assembly is remotely located relative to the valve assembly. 10. A device as in claim 7 , wherein the actuator assembly is locally located relative to the valve assembly.